2 - 1050 F2F Basic Anatomical Organization and Tissues FA2024 PDF

Summary

This document is lecture notes about basic anatomical organization and tissues. The document contains information about the four primary tissue types (epithelial, connective, nervous, and muscular) and provides definitions and examples of these tissues. It also contains information about body regions and body cavities. The document was made in Fall 2024.

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 Unit 2: Basic
Anatomical
Organization
& Tissues
Chapter 1 and Atlas A
Chapter 5: 5.1-5.4

REMEMBER:
UNIT 2 ANATOMY & PHYSIOLOGY
REVEALED ASSIGNMENT DUE
MONDAY SEPTEMBER 16 - 11:59PM
 Slido

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Define "Anatomy" in one
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Define "Physiology" in one
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We will
examine
“normal”
anatomy
Language of Anatomy

Most medical terms come from Greek and Latin roots
Back pages of the textbook has a lexicon of biomedical word elements
Terms are generally formed with one or more of the following:
Root (stem), bearing the core meaning of the word
Ex. cardi- means heart, cardiology is the study of the heart
Combining vowels, inserted to join roots
Ex. Cardiomyopathy has the roots cardi-, my- and pathy- all
joined by vowels for easier pronunciation
Medical terms

Prefix, modifies the core meaning of the word
Ex. Gastric pertains to the stomach or to the belly of a muscle
takes on new meaning given different prefixes
Epigastric – above stomach
Hypogastric – below stomach
Endogastric – within the stomach
Suffix may be added to the word to modify the core meaning
Ex. Microscope vs microscopy vs microscopic vs
microscopist
Spelling counts!

Small differences in how you spell
a word results in you pointing to a
completely different part of the
body!
Ileum (final portion of small
intestine) and Ilium (part of
the hip bone)
 1. a- (i.e. acellular) a. Pain
Prefixes, 2. acoust- (i.e. acoustic b. Vessel
Suffixes, meatus)
c. An enzyme
and Root 3. adipo- (i.e. adipose)
d. Hearing
4. -algia (i.e. neuralgia)
Words 5. andro- (i.e.
e. Without
f. Male
A androgens)
g. Self
6. angio- (i.e.
angiogram) h. Fat
7. anti- (i.e. antiviral) i. Against
8. -ase (i.e. lipase)
9. auto- (i.e.
autoimmune)
Anatomical Position

Person standing
with both feet on
the ground, arms at
the side with palms
facing forward
All descriptions of
anatomy are based
on someone in
anatomical position

Fig. 2.2 – Wise Lab Manual
 Planes
Sagittal plane
vertical through body
divides into left and right
median (midsagittal) plane
cuts in equal halves
Frontal (coronal) plane
Vertical
Divides into front and back
Transverse (horizontal) plane
across the body/organ perpendicular
to long axis
superior (upper) and inferior (lower)
portion
Planes
Sagittal plane
vertical through body
divides into left and right
median (midsagittal) plane
cuts in equal halves
Frontal (coronal) plane
Vertical
Divides into front and back
Transverse (horizontal) plane
across the body/organ
perpendicular to long axis
superior (upper) and inferior
(lower) portion
Directional terms
Directional
Terms

Fig. 2.2 – Wise Lab Manual
Describe to your
neighbor…

1. Where is your heart located?
2. Where is your foot located?
3. Where is your nose located?
4. Where is your bellybutton
located?
 Body Regions
2 major regions:
1. Axial
Head (cephalic, facial), neck
(cervical), trunk
trunk = thoracic &
abdominal regions
2. Appendicular
Upper and lower limbs
Many smaller areas within these
two major regions

Fig. A.3
Body regions
Appendicular
Upper limbs
brachial (arm)
antebrachial (forearm)
Carpal (wrist)
manual (hand)
digits (Fingers)
Lower limbs
femoral (thigh)
crural (leg)
tarsal (ankle)
pedal (foot)
Digits (toes)

Fig. A.3
Body Cavities
and Membranes
Body wall has numerous
cavities lined with
membrane and
containing viscera
(internal organs)

Fig. A.5
 Thoracic Cavity
Pleural Cavities
Each lung enfolded by membrane
called pleura
Visceral pleura (external surface of
lung)
Parietal pleura (lines inside of rib
cage)
Pleural cavity with pleural fluid is
found between the two pleura
Thoracic cavity is divided by the
mediastinum
Between the lungs - Occupied by
heart, major blood vessels, esophagus,
trachea and bronchi, thymus
Pericardium
Visceral pericardium
forms the surface of the heart
itself
Parietal pericardium Fig. A.6
Two layers separated by the pericardial
cavity that contains pericardial fluid
Abdominopelvic Cavity

Contains: digestive organs, spleen,
kidneys, ureters

Separated by the brim of pelvis

Contains: rectum, urinary bladder,
Fig. A.5 urethra, and reproductive organs

Contains a 2-layered serous membrane = Peritoneum
1. Parietal peritoneum lines cavity wall (outer layer)
2. Visceral peritoneum suspends certain viscera from body wall, covering organs
and holding in place
Histology and Tissues

The study of tissues and
how they are arranged into
organs
Histo = tissue; logy = study of

Lecture Overview:
1. The Study of Tissues
2. Epithelial Tissues
3. Connective Tissue
4. Nervous and Muscular
Tissues – Excitable Tissues
 Interpreting Tissue Sections
Histologists preserve, slice and section tissues
Fixative – prevents decay/holds sample together (i.e. formalin)
Section – tissue sliced into thin sections 1-2 cells thick (NOTE: sometimes you use
smears instead of sections)
Stains – add stains to provide contrast between tissues or components of cells

planes
Sectioning reduces 3-dimensions to 2

Fig. 5.1
Sections
Longitudinal Section:
cut on long axis
Cross/Transverse Section:
cut perpendicular to long axis
Oblique Section:
cut on a slant between a
longitudinal and cross section

Fig. 5.2
Practice Identifying Sections
In this image of
the stomach,
draw a line to
indicate where
would cut for:
A Transverse
section?
Longitudinal
section?
Oblique section?
 Tissue Types
Tissue: a group of similar cells and cell products working together to
perform a specific role in an organ
Four primary tissues types are:
1. Epithelial
2. Connective
3. Nervous
4. Muscular
Tissue Types

Defined by:
Fig. 1-16 Pathophysiology, 7th Ed.
Types and functions of cells in the tissue
Characteristics of extracellular matrix (ECM)
Amount of space occupied by cells vs matrix

Matrix composed of:
Fibrous proteins
Interstitial fluid - clear gel (aka ground substance, tissue fluid, extracellular fluid)
Epithelial tissue
Epithelia = sheets of closely adhering cells ≥ 1 cell
thick

Upper surface usually exposed to environment or
internal space in body Functions:
Covers body surfaces Protection
Lines body cavities Secretion
Forms external and internal linings of organs Excretion
Constitutes most glands Absorption
Filtration
Sensation
Avascular (nourished by underlying connective
tissue) Lumen
Basement membrane – layer between epithelium Apical
and underlying connective tissue
Anchors epithelium to connective tissue Basal
Basal surface
faces basement membrane
Apical surface
faces away from the basement membrane
Categories of Epithelia
Simple
Every cell touches basement
membrane
Simple
Stratified squamous
Some cells rest on top of other
cells and do not contact
basement membrane
Most common
Fig 5.4

In pseudostratified – all cells
reach basement membrane

Fig. 5.3
 Function → Form
Form → Function

Type?
Single row of thin cells

Rapid diffusion/transport
of substances (it’s thin)

Secretes serous fluid

E.g. alveoli, glomeruli,
endothelium

Fig. 5.4
Type?
Single layer of square or
round cells

Absorption/secretion,
mucous production, mucous
movement

Found in liver, mammary
and salivary glands,
bronchioles, kidney tubules

Fig. 5.5
Type?

Oval nuclei at basal half of
cell
Brush border of microvilli,
ciliated in some organs,
may have goblet cells
Absorption and secretion,
secretion of mucous
Found in GI tract lining,
uterus, kidney, and uterine
tubes

Fig. 5.6
Type?

Nuclei at several layers
Cilia and goblet cells
Secretes and propels
mucous
E.g. respiratory tract,
portions of male urethra,
lining of stomach,
intestines, and
gallbladder, uterus
Fig. 5.7
Type? Keratinized Nonkeratinized

Keratinized (cornified)
Found on skin surface,
abrasion resistant, and
has layer(s) of dead cells
without nuclei
Cells contain keratin and
water repellent glycolipid
i.e. Epidermis, palms and
soles

Nonkeratinized
Lacks surface layer of
dead cells
Resists abrasion and
penetration of pathogens Fig. 5.8 Fig. 5.9
Tongue, oral mucosa,
esophagus, and vagina
Type?
Two or more cell layers,
square or round surface cells

Rare
Secretes sweat, produces
sperm, produces ovarian
hormones

Found in sweat gland ducts,
ovarian follicles, and
seminiferous tubules
Fig. 5.10
Connective tissue
Most abundant, distributed, and
histopathologically variable of all
primary tissues
Defining characteristic: FUNCTIONS:
cells (-blasts) occupy less space than Binding of organs – tendons and ligaments
the matrix that they secrete, with
most cells not in direct contact with
each other Support – bones and cartilage
Supports, connects, and protects Physical protection – cranium, ribs,
organs sternum
Highly variable vascularity Immune protection – white blood cells
loose connective tissue - many blood
vessels Movement – bones provide a lever system
cartilage - few or none Storage – fat, calcium, phosphorus
Heat production – metabolism of brown fat
Mature connective tissue falls into one of in infants
four groups:
1. Fibrous connective tissue Transport – blood
2. Adipose tissue
3. Cartilage and bone (supportive
connective tissues)
4. Blood (fluid connective tissue)
Connective Tissue:
Fibrous Connective Tissue
1. Loose connective tissue
Much of space occupied by gel-like
ground substance between cells
Fig. 5.14

2. Dense connective tissue
Fibres occupy more spaces than cells
and ground substance
Types vary in fibre orientation: Fig. 5.16
A. Dense regular connective tissue (e.g.
tendons and ligaments)
B. Dense irregular connective tissue (e.g.
dermis, capsule around organs)

Fig. 5.17
Connective Tissue:
Adipose Tissue
Adipocytes = dominant cell type
Space between adipocytes contains
loose connective tissue and blood
capillaries

White fat - resembles chicken wire
Contain fat, the body’s primary
energy reservoir
Provides thermal insulation
Cushions organs (e.g. eye and kidney)
Brown fat
Found mainly in infants and children
Colour from blood vessels and
mitochondria
Heat-generating tissue
Fig. 5.18
Connective Tissue:
Cartilage
Stiff connective tissue with flexible matrix
Ear, tip of nose, “adam’s apple”
Produced by Chondroblasts
Secrete matrix until surrounded
Become trapped in lacunae → become
Chondrocytes
No blood vessels
→ slow healing
Nutrients and wastes transported by diffusion

Types of cartilage:
1. Hyaline cartilage
2. Elastic cartilage
3. Fibrocartilage
 Connective Tissue: Bone Tissue
= Hard, calcified connective tissue Compact Bone
* Bones of skeleton are organs made of bone tissue, a.k.a. cortical bone
cartilage, marrow, and other tissue types 85% of skeleton
Solid and extremely strong
Layers of bone matrix
arranged in circular system
= lamellae

Spongy Bone
a.k.a cancellous bone
15% of the skeleton
Filled with red bone
marrow
Layers of bone matrix
arranged in delicate struts
= trabeculae
Covered by compact bone
Found in heads of long bones
Fig. 43-4 (e.g. femur) and middle of
flat bones (e.g. sternum)
Compact Bone
Dense, calcified, no visible
spaces
Cells and matrix surround vertically
oriented blood vessels in long bones
Arranged in cylinders (osteon) that
surround central canals that run
longitudinally through shafts of long
bones
Blood vessels and nerves travel
through central canal
Bone matrix deposited in concentric
lamellae

Fig. 5.22
 Connective Tissue: Blood
~50-60% of the normal
blood volume
Contains:
Transports cells and dissolved Water (95%)
matter (food, waste, oxygen, Dissolved proteins
carbon dioxide) Clotting factors
Electrolytes
Hormones
Carbon dioxide

Fig. 5.23
 Nervous tissue
Specialized for communication by electrical and
chemical signals

Consists of:
1. Neurons (nerve cells)
Detect stimuli, respond quickly, transmit
coded information rapidly to other cells
Three main parts:
Neurosoma (cell body)
Dendrites
Axon (nerve fibre)

2. Neuroglia (glial)
Protects and assists neurons
More numerous than neurons
Fig. 5.24
Muscle Tissue
1. Skeletal – voluntary, made of muscle
fibres containing striations (dark and light
bands)
Most skeletal muscle attach to bone
Contains multiple nuclei

2. Cardiac – only in heart, involuntary,
striated
Myocytes (cardiocytes) are branched,
shorter than skeletal muscle fibres
Contain one nucleus, intercalated discs join
cardiocytes end to end

3. Smooth – involuntary and lacks striations
Most is visceral muscle, making up parts of
the walls of hollow organs

Fig. 5.25, 5.26, 5.27
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